An inverse formulation for image currents computation in axisymmetric conductors

A method is reported for solving the inverse electrodynamic problem of determining the current density induced in a massive axisymmetric conductor in the presence of external impressed currents. The current density is modeled as a surface current density which is numerically represented by filament currents. The solution is found through a matrix equation whose elements are computed by means of integral equations. Well-posedness of the analytical formulation and well-conditioning of the numerical model are discussed. The method produces fast and sufficiently accurate solutions. It provides an easy tool for inductive parameter computation of the impressed currents, considering the effect of the current induced in massive conductors. Comparisons with other methods are presented together with examples of applications to specific geometries and external conditions